Mathematics Department Graduate Pamphlet 2011-2012
DEPARTMENT of MATHEMATICS
OREGON STATE UNIVERSITY
CORVALLIS OR 97331-4605
Updated July 2011
- INTRODUCTION
- THE GRADUATE COMMITTEE
- DEPARTMENTAL AND INSTITUTIONAL REQUIREMENTS
- CORE GRADUATE COURSES
- REQUIREMENTS FOR THE MASTER'S DEGREE
- Acceptance into the Master's Program
- Selection of a Major Professor and Degree Committee
- Master's Degree Program
- Institutional and Departmental Course Requirements
- Thesis, Paper, or Examination
- Final Oral Examination
- HOW A MASTER'S STUDENT ENTERS THE Ph.D. PROGRAM
- REQUIREMENTS FOR THE Ph.D. DEGREE
- Acceptance into the PhD Program
- Departmental Course Requirements
- Qualifying Examination
- Selection of Major Professor
- Formation of a Degree Committee
- Program Meeting
- Foreign Languages
- The Oral Preliminary Examination
- Thesis
- Final Oral Examination
- Graduate Council Representative (GCR)
- A SYNOPSIS OF INSTITUTIONAL REQUIREMENTS
- POSTBACCALAUREATE STUDENTS
- GRADUATE TEACHING ASSISTANTS AND RESEARCH ASSISTANTS
- Qualifying examinations and continued support
- Guidelines for expected academic progress
- Teaching Assignments
- GTA Salaries
- Course Loads
- Summer Term GTAs
- LINKS TO FORMS
- CHECKLIST OF SOME REQUIREMENTS FOR GTAS AND GRAS
- GRADUATE COURSE OFFERINGS
INTRODUCTION
This document describes the graduate programs of the Mathematics Department at Oregon State University and provides students with a road map of the steps necessary to earn a Master's degree or Doctorate in Mathematics. The Mathematics Department is of moderate size with about 25 graduate faculty and 50-60 graduate students. About 50 graduate students are supported by teaching assistantships or research assistantships. The fields of the faculty are diverse: there are groups working in algebra, analysis, applied mathematics, differential geometry, mathematics education, number theory, numerical analysis, probability, and topology. Under the Master's program one also has an option for study in financial math and in actuarial science. Areas of expertise of the faculty can be found on the department's web site at:
General information about Oregon State University and about the Mathematics Department is available via the home pages:
and
The first part of this document describes the requirements of the Master's and PhD programs, and applies to all graduate students in Mathematics. A second part contains information specific to graduate students holding Graduate Teaching Assistantships (GTAs) or Graduate Research Assistantships (GRAs).
THE GRADUATE COMMITTEE
A list of current members of the Graduate Committee is posted in the graduate mail room and is available from the department's graduate contact person. The Graduate Committee has general oversight responsibility for the academic aspects of the graduate program. In particular, it is responsible for approving or denying petitions for changes to the normal departmental requirements for advanced degrees. The committee advises students throughout the year on any aspects of the graduate program. The Graduate Committee is responsible for advising and approving the study plans, including course work taken each year, of all graduate students in mathematics until they find major professors and file official degree programs with the graduate school. At that time, major professors and degree committees assume primary advising and approval responsibility for their students.
It is recommended that those students interested in a particular area of mathematics meet with the faculty in that area upon entering the graduate program.
Students with questions are encouraged to meet directly with individual members of the Graduate Committee or to contact the full committee via e-mail. The e-mail address sends e-mail to members of the graduate committee. In particular, petitions to the graduate committee should be sent to this e-mail address. However, before submitting a petition, a student may wish to discuss the situation with their major professor and a member of the graduate committee. This procedure will expedite action on the petition.
DEPARTMENTAL AND GRADUATE SCHOOLREQUIREMENTS
Graduate students must satisfy both departmental and institutional (general university) requirements for a particular degree program. This pamphlet describes the departmental requirements. Institutional requirements are given in the Graduate Catalog and the Graduate Student Survival Guide, both available from the Graduate School. Specific information may be obtained by calling the Graduate School at (541) 737-4881 or by visiting their web page. Some of the institutional requirements are mentioned in this pamphlet. However, students are responsible for obtaining complete and up-to-date information on the current institutional requirements from the Graduate School. In what follows some course requirements distinguish between "blanket" and "non-blanket" numbered courses. See A Synopsis of Graduate School Requirements later in this pamphlet for the meaning of these terms.
CORE GRADUATE COURSES
The mathematics department faculty has designated 15 courses as core graduate courses. Core courses typically have midterm and final examinations and problem assignments. The first course of each sequence is intended to be accessible to a beginning graduate student with a standard undergraduate mathematics degree. The table below lists the core courses and the terms when they are typically offered.
CORE GRADUATE COURSESFALL / WINTER / SPRING
Analysis 1
(Mth 511) / Analysis 2
(Mth 512) / Complex Analysis
(Mth 611)
Linear Algebra
(Mth 543) / Algebra 1
(Mth 644) / Algebra 2
(Mth 645)
Applied Mathematics 1
(Mth 621) / Applied Mathematics 2
(Mth 622)
Numerical Analysis I
(Mth 551) / Numerical Analysis II
(Mth 552) / *
Topology 1
(Mth 631) / Topology 2
(Mth 632) / Geometry
(Mth 674)
Probability 1
(Mth 664) / Probability 2
(Mth 665)
*Note: Numerical Analysis III (Mth 553) may be substituted for Numerical Analysis I in the requirements listed below.
All graduate students must take the 4 courses listed in boldface above, (Mth 511, 512, 611, and 543). Master's students must take at least 4 additional courses from the core, including at least one additional two-term sequence. Ph.D. students must take at least 8 additional courses from the core, including at least 3 additional two-term sequences. More details on the requirements for the various degrees are given in the sections below.
REQUIREMENTS FOR THE MASTER'S DEGREE
Oregon State University offers both an MA and an MS degree in Mathematics. The essential difference between the two is that the MA has the additional requirement of second-year proficiency in a foreign language, as determined by the Graduate School. A student must complete the following steps in order to earn a Master's degree. (Check with the Graduate School directly to verify the institutional requirements and time frames for some of the steps outlined below.)
A. Acceptance into the Master's Program.
A notice of admission to the Master's Program in Mathematics comes from the University’s Graduate School. Subject to the institutional time limits, a student remains in the program as long as satisfactory progress is made toward the degree, with completion expected in two years. Occasionally, additional time may be granted upon petition to the Graduate Committee, particularly in those cases where additional undergraduate background is required.
B. Selection of a Major Professor and Degree Committee.
By the end of Spring term of the first year in residence, a student must choose a major professor from the graduate mathematics faculty. This is done by mutual agreement. If a minor is declared, a minor professor must also be chosen before filing a program. If the thesis option is chosen, a (non-mathematics) faculty member, the Graduate Council Representative (GCR), must be selected. The GCR is chosen from a list provided by the Graduate School. The Degree Committee consists of the major professor, the minor professor (if a minor is declared), the GCR (if the thesis option is chosen) and two (one, in case of declared minor) other members of the graduate mathematics faculty. The committee members other than the major (and minor) professors need not be selected until the degree work is nearing completion.
C. Master's Degree Program.
A student and major professor develop an official degree program, subject to the Graduate School and departmental requirements in D below. The degree program should include one of the following:
(i) a Master's Thesis,
(ii) the non-thesis option with a Master's Expository Paper,
(iii) the non-thesis option without a Master's Expository Paper.
A student who chooses the non-thesis option (iii) is required to earn the grade of "pass" on the Ph.D. qualifying examination and is required to take three additional core courses. The student records the chosen program on the Master's program form found on the Graduate School web site The program must be approved and signed by the major professor, minor professor (if minor is declared), and approved and signed by the Chair of Mathematics.After the Chair has signed the program, it must to be submitted to the Graduate School for approval. Once approved by the Graduate School Dean a copy will be sent to you, your advisor, and the Math Department. It is expected that you will submit your Master’s program by the end of Fall term of your second year in the Math graduate program.
D. Departmental and Graduate School Course Requirements.
The Graduate School requires that a Master's degree program include at least 45 credit hours of coursework of which 15 hours may be in a minor. (The minor may be in mathematics.) If an outside minor is chosen, a representative from the minor field must approve that portion of the Master's program.
The Department requires that each student complete the following four core courses and include them on the MS program.
Real Analysis I (Mth511) / Real Analysis II (Mth 512)Linear Algebra (Mth 543), / Complex Analysis I (Mth 611).
Four additional core courses from the following list must also be completed and included on the program. The four additional courses must be chosen to include a two-term sequence from one of the five groups.
Abstract Algebra (Mth 644, 645) / Applied Math (Mth 621, 622)Numerical Analysis (Mth 551, 552, *553) / Probability (Mth 664, 665)
Topology, Geometry (Mth 631, 632, 674)
All of these courses are intended to be accessible to a first year graduate student with a standard undergraduate mathematics degree. All eight courses must appear on the Master's Degree Program (hence, none may be taken S/U).
*Note: Numerical Analysis III (Mth 553) may be substituted for Numerical Analysis I in satisfying the core course requirement.
A Master's degree program with the thesis option requires 6-12 hours of Mth 503 (Thesis) and the non-thesis options require 3-6 hours of MTH 501 (Research). The non-thesis option (iii) requires passing the qualifying exam, as explained in the next section. No courses in the sequence Mth 581-582-583 may be used in a graduate program in mathematics. Each Master's candidate must complete at least 39 credits (inclusive of Mth 503 or Mth 501) of non-blanket numbered, graduate-level course work, which may include courses outside the Mathematics department that are essential for the degree program. These courses must be approved by the student's degree committee and by the Chair of the Graduate Committee. Occasionally a student has inadequate background to successfully begin and complete Mth 511 and/or Mth 543 during their first term in our program. Such a student should meet with the Chair of the Graduate Committee no later than the end of the first week of Fall Term to discuss the situation and to devise a plan of study to propose to the Graduate Committee.
E. Thesis, Paper, or Examination.
Each Master's candidate must either write a Master's thesis, a Master's paper, or pass the Ph.D. qualifying examinations as described below.
If a student chooses to write an MS thesis then a Graduate Council Representative (GCR) must be included on the graduate committee. It is recommended that the GCR be selected by the student, by contacting the Graduate School for a list of potential GCRs, soon after the Program of Study is submitted. When the final defense is scheduled (at least one week prior to the defense) with the Graduate School, the pre-text pages from the thesis must also be submitted to the Graduate School for approval. This link explains the steps and formatting requirements for pre-text pages and your thesis. Following approval of the thesis by the student’s graduate committee a copy, printed and bound according to the Graduate School requirements, must be submitted to the Graduate School for their approval. Questions should be directed to the Graduate School Thesis Editor at 737-1466.
If a student chooses to write an expository paper, a Graduate Council Representative is not required and Graduate School formatting requirements need not be followed. However, a Master's paper must be prepared with a word processor capable of producing standard mathematical symbols and equations and be printed on high quality paper. Each member of the Degree Committee must receive a copy of the expository paper at least one week in advance of the defense date however.
In lieu of writing a thesis or paper, a student who has received the grade of "pass" on the Ph.D. qualifying examination may earn a Master’s degree by taking three additional core courses beyond the requirements in subsection D. The student must also schedule and pass a final oral examination.
A Master's student who is considering applying to the Ph.D. program should take the departmental qualifying exam by the beginning of the second year in the Master's program.
F. Final Oral Examination.
Each Master's candidate must pass an Oral Examination. This examination is based on the courses in the student's Master's program and additionally, if the paper or thesis option has been elected, the work of the thesis or paper. It is the student's responsibility to schedule the Oral Examinationat a time that isagreeable to all committee members andthen ask the office staff to reserve a room for the examination. At least one week prior to the scheduled defense date the student must submit an Event/Exam Form to the Graduate School officially scheduling the Oral Examination. This allows the Graduate School to audit the student’s Program of Study to ensure institutional standards are met and then prepare the defense paper work that will be sent to the student, advisor, and Graduate Council Representative prior to the exam. The Graduate School’s Event Scheduling Form is available here.
HOW A MASTER'S STUDENT ENTERS THE Ph.D. PROGRAM
The change from the Master's program to the Ph.D. program normally occurs when the Master's degree has been completed or when completion is imminent. The following steps are required for admission to the Ph.D. program:
1) Complete and submit the appropriate change of program form available from the Graduate School or the departmental graduate secretary.
2) Submit the following information to the Graduate Committee:
a) Two letters from departmental faculty supporting the student's application for admission to the Ph.D. program. One of the letters should be from the student's prospective Ph.D. advisor, who should indicate willingness to serve as advisor.
b) A brief letter of intent that outlines the student's plans, goals, and reasons for wishing to enter the Ph.D. program.
Warning: A change of program form should be submitted to the Graduate School before the end of the term in which the pending degree requirements are completed. Otherwise the Graduate School will consider the student to have completed his or her graduate studies and continuing for another graduate degree will require reapplying for admission. While the reapplication is pending the student may not hold a GTA or GRA.
The Graduate Committee evaluates applications for admission to the Ph.D. program using the foregoing information and the student's overall academic record. Normally, the Graduate Committee expects that an applicant to the Ph.D. program will have at least a 3.5 GPA in non-blanket graduate mathematics courses, will have completed all required MS core courses, and will have taken the Ph.D. qualifying examination with the grade of pass. (The Ph.D. qualifying examinations are discussed later.)
REQUIREMENTS FOR THE Ph.D. DEGREE
The Ph.D. represents specialized study and independent research beyond the level of the Master's Degree. The goal of the Ph.D. program is to enable a student to become a mathematician with the ability to continue with an independent research program. An additional goal is to obtain employment in a field where the student's mathematical training can be used in a productive and satisfying way to the benefit of the student and society. In recent years, doctoral theses in our department have been written in the areas of algebra, analysis, applied mathematics, differential geometry, mathematics education, number theory, numerical analysis, probability, and topology.
The following steps are required in the pursuit of the Ph.D. Some of the steps involve deadlines and time restrictions imposed by the Graduate School. These are described in the Graduate School Bulletin, the Graduate Student Guide to Success and in periodic announcements by the Graduate School.
A. Acceptance into the Ph.D. Program
The official notice of admission to the University Ph.D. program in mathematics will come from the OSU Graduate School. Subject to the institutional time limits, a student remains in the program as long as satisfactory progress is made toward the degree. If a student applies to the Ph.D. program and does not already have a Master's degree when admitted, the student will automatically be placed in the Master's degree program. Since a Master's degree can be obtained by employing the non-thesis option that includes passing the Ph.D. qualifying examination, initial admission to the Master's program will cause no unnecessary delay for students pursuing a Ph.D. degree.
B. Departmental Course Requirements
The Department requires that each student complete four required core courses,
Real Analysis I (Mth511) / Real Analysis II (Mth 512)Linear Algebra (Mth 543), / Complex Analysis I (Mth 611).
Eight additional core courses from the following list must also be completed. The eight additional courses must be chosen to include three two-term sequences from the five groups:
Abstract Algebra (Mth 644, 645) / Applied Math (Mth 621, 622)Numerical Analysis (Mth 551, 552, *553) / Probability (Mth 664, 665)
Topology, Geometry(Mth 631, 632, 674)
All twelve courses must appear on the Ph.D. Degree program of study (hence, none may be taken S/U).